Reinforced concrete : mechanics and design / James K. Wight, F.E. Richart, Jr., James G. Macgregor.
Material type:![Text](/opac-tmpl/lib/famfamfam/BK.png)
- 9781292014166
- E-BOOK (Available ON-CAMPUS only)
Item type | Current library | Call number | Status | Date due | Barcode | |
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Mohinder Singh Randhawa Library | E-BOOK (Available ON-CAMPUS only) (Browse shelf(Opens below)) | Available | OL-65 |
Chapter 1: Introduction
Chapter 2: The Design Process
Chapter 3: Materials
Chapter 4: Flexure: Behavior and Normal Strength of Beam Sections
Chapter 5: Flexural Design of Beam Sections
Chapter 6: Shear in Beams
Chapter 7: Torsion
Chapter 8: Development, Anchorage, and Splicing of Reinforcement
Chapter 9: Serviceability
Chapter 10: Continuous Beams and One-Way Slabs
Chapter 11: Columns: Combined Axial Load and Bending
Chapter 12: Slender Columns
Chapter 13: Two-Way Slabs: Behavior, Analysis, and Design
Chapter 14: Two Way Slabs: Elastic and Yield-Line Analyses
Chapter 15: Footings
Chapter 16: Shear Friction, Horizontal Shear Transfer, and Composite Concrete Beams
Chapter 17: Discontinuity Regions and Strut-and-Tie Models
Chapter 18: Walls and Shear Walls
Chapter 19: Design for Earthquake Resistance
Reinforced concrete design encompasses both the art and science of engineering. This book presents the theory of reinforced concrete as a direct application of the laws of statics and mechanics of materials. In addition, it emphasizes that a successful design not only satisfies design rules, but also is capable of being built in a timely fashion and for a reasonable cost. A multi-tiered approach makes Reinforced Concrete: Mechanics and Design an outstanding textbook for a variety of university courses on reinforced concrete design. Topics are normally introduced at a fundamental level, and then move to higher levels where prior educational experience and the development of engineering judgment will be required.
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